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| integer(c_int), pointer, save | iilagr | 
|  | activates (>0) or deactivates (=0) the Lagrangian module the different values correspond to the following modellings:  More... 
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| integer(c_int), pointer, save | ntersl | 
|  | More... 
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| double precision, dimension(:,:), pointer, save | ptsvar | 
|  | More... 
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| integer(c_int), pointer, save | idepst | 
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| integer(c_int), pointer, save | iflow | 
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| integer(c_int), pointer, save | ipreci | 
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| integer(c_int), pointer, save | ltsdyn | 
|  | activation (=1) or not (=0) of the two-way coupling on the dynamics of the continuous phase. Useful if iilagr = 2 and iccvfg = 0  More... 
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| integer(c_int), pointer, save | ltsmas | 
|  | activation (=1) or not (=0) of the two-way coupling on the mass. Useful if iilagr = 2, cs_lagr_model_t::physical_model = 1 and cs_lagr_specific_physics_t::impvar = 1  More... 
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| integer(c_int), pointer, save | ltsthe | 
|  | if cs_lagr_model_t::physical_model = 1 and cs_lagr_specific_physics_t::itpvar = 1, ltsthe !> activates (=1) or not (=0) the two-way coupling on temperature. if cs_lagr_model_t::physical_model = 2, ltsthe activates (=1) or not (=0) the two-way coupling on the eulerian variables related to pulverized coal combustion. Useful if iilagr = 2  More... 
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| integer(c_int), pointer, save | itsli | 
|  | implicit source term for the continuous phase velocity and for the turbulent energy if the  model is used  More... 
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| integer(c_int), pointer, save | itske | 
|  | explicit source term for the turbulent dissipation and the turbulent energy if the  turbulence model is used for the continuous phase  More... 
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| integer(c_int), pointer, save | itste | 
|  | explicit thermal source term for the thermal scalar of the continuous phase  More... 
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| integer(c_int), pointer, save | itsti | 
|  | implicit thermal source term for the thermal scalar of the continuous phase  More... 
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| integer(c_int), pointer, save | itsmas | 
|  | mass source term  More... 
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